def validate_router_id(cluster_id):
if not isinstance(cluster_id, str):
raise ConfigTypeError(conf_name=CLUSTER_ID)
if not is_valid_ipv4(cluster_id):
raise ConfigValueError(desc='Invalid cluster id %s' % cluster_id)
return cluster_id
def validate_rpc_host(ip):
"""
Validates the given ip for use as RPC server address.
"""
if not is_valid_ipv4(ip) and not is_valid_ipv6(ip):
raise ApplicationException(
desc='Invalid RPC ip address: %s' % ip)
return ip
def is_valid_ip_addr(addr):
# Note: Allows empty IP Address (means length=0).
# e.g.) L2VPN MAC advertisement of Cisco NX-OS
if not (addr is None
or validation.is_valid_ipv4(addr)
or validation.is_valid_ipv6(addr)):
raise ConfigValueError(conf_name=IP_ADDR,
conf_value=addr)
def ipv4_mapped_ipv6(ipv4):
if not is_valid_ipv4(ipv4):
raise ValueError('Invalid ipv4 address given %s.' % ipv4)
ipv4n = socket.inet_pton(socket.AF_INET, ipv4)
ipv6_hex = '00' * 10 + 'ff' * 2 + bytes2hex(ipv4n)
ipv6n = hex2byte(ipv6_hex)
ipv6 = socket.inet_ntop(socket.AF_INET6, ipv6n)
return ipv6
def validate_router_id(router_id):
if not router_id:
raise MissingRequiredConf(conf_name=ROUTER_ID)
if not isinstance(router_id, str):
raise ConfigTypeError(conf_name=ROUTER_ID)
if not is_valid_ipv4(router_id):
raise ConfigValueError(desc='Invalid router id %s' % router_id)
return router_id
def from_bytes(cls, recv_bytes, total_msg_len):
# Validate OPEN message length.
if len(recv_bytes) < 10:
raise BadLen(Open.TYPE_CODE, len(recv_bytes) + cls.HEADER_SIZE)
version, asnum, holdtime, bgpid, paramlen = \
struct.unpack_from('!BHH4sB', recv_bytes)
if len(recv_bytes) != (10 + paramlen):
# TODO(PH): Check what RFC says to do here.
LOG.debug('Open message: too short.')
offset = 10
# BGP implementation MUST reject Hold Time values of one or two
# seconds.
if holdtime <= 2:
raise UnacceptableHoldTime()
# BGP Identifier field MUST represents a valid unicast IP host address.
bgpid = socket.inet_ntoa(bgpid)
if not is_valid_ipv4(bgpid):
raise BadBgpId()
# Parse optional parameters.
caps = OrderedDict()
unrec_params = OrderedDict()
while offset < len(recv_bytes):
ptype, plen = struct.unpack_from('BB', recv_bytes, offset)
offset += 2
value = recv_bytes[offset:offset + plen]
offset += plen
# Parse capabilities optional parameter.
if ptype == CAP_OPT_PARA_TYPE:
bgp_caps = capabilities.decode(value)
# store decoded bgp capabilities by their capability-code
for cap in bgp_caps:
cap_code = cap.CODE
if cap_code in caps:
caps[cap_code].append(cap)
else:
caps[cap_code] = [cap]
else:
# Other unrecognized optional parameters.
unrec_params[ptype] = value
# Un-recognized capabilities are passed on, its up to application to
# check if unrec-optional-paramters are a problem and send NOTIFICATION
return cls(version, asnum, holdtime, bgpid, caps, unrec_params)
def add_to_vrf(self, route_dist, prefix, next_hop, route_family):
"""Adds `prefix` to VRF identified by `route_dist` with given
`next_hop`.
Returns assigned VPN label.
"""
from ryu.services.protocols.bgp.core import BgpCoreError
assert route_dist and prefix and next_hop
if route_family not in (VRF_RF_IPV4, VRF_RF_IPV6):
raise ValueError('Given route_family %s is not supported.' %
route_family)
vrf_table = None
table_id = (route_dist, route_family)
if route_family == VRF_RF_IPV4:
vrf_table = self._tables.get(table_id)
if vrf_table is None:
raise BgpCoreError(desc='VRF table for RD: %s does not '
'exist.' % route_dist)
if not is_valid_ipv4_prefix(prefix) or not is_valid_ipv4(next_hop):
raise BgpCoreError(desc='Invalid Ipv4 prefix or nexthop.')
ip, masklen = prefix.split('/')
prefix = IPAddrPrefix(int(masklen), ip)
elif route_family == VRF_RF_IPV6:
vrf_table = self._tables.get(table_id)
if vrf_table is None:
raise BgpCoreError(desc='VRF table for RD: %s does not '
'exist.' % route_dist)
if not is_valid_ipv6_prefix(prefix) or not is_valid_ipv6(next_hop):
raise BgpCoreError(desc='Invalid Ipv6 prefix or nexthop.')
ip6, masklen = prefix.split('/')
prefix = IP6AddrPrefix(int(masklen), ip6)
return vrf_table.insert_vrf_path(
prefix, next_hop=next_hop,
gen_lbl=True
)
def add_to_vrf(self, route_dist, prefix, next_hop, route_family):
"""Adds `prefix` to VRF identified by `route_dist` with given
`next_hop`.
Returns assigned VPN label.
"""
from ryu.services.protocols.bgp.core import BgpCoreError
assert route_dist and prefix and next_hop
if route_family not in (VRF_RF_IPV4, VRF_RF_IPV6):
raise ValueError('Given route_family %s is not supported.' %
route_family)
vrf_table = None
table_id = (route_dist, route_family)
if route_family == VRF_RF_IPV4:
vrf_table = self._tables.get(table_id)
if vrf_table is None:
raise BgpCoreError(desc='VRF table for RD: %s does not '
'exist.' % route_dist)
if not is_valid_ipv4_prefix(prefix) or not is_valid_ipv4(next_hop):
raise BgpCoreError(desc='Invalid Ipv4 prefix or nexthop.')
ip, masklen = prefix.split('/')
prefix = IPAddrPrefix(int(masklen), ip)
elif route_family == VRF_RF_IPV6:
vrf_table = self._tables.get(table_id)
if vrf_table is None:
raise BgpCoreError(desc='VRF table for RD: %s does not '
'exist.' % route_dist)
if not is_valid_ipv6_prefix(prefix) or not is_valid_ipv6(next_hop):
raise BgpCoreError(desc='Invalid Ipv6 prefix or nexthop.')
ip6, masklen = prefix.split('/')
prefix = IP6AddrPrefix(int(masklen), ip6)
return vrf_table.insert_vrf_path(
prefix, next_hop=next_hop,
gen_lbl=True
)
def __init__(self, route_family, next_hop, nlri_list, reserved=None):
if not (hasattr(route_family, 'afi') and
hasattr(route_family, 'safi')):
raise ValueError('Invalid parameter value for route_family %s.' %
route_family)
if not next_hop:
raise ValueError('Invalid next_hop %s' % next_hop)
# MpReachNlri attribute should have next-hop belonging to same
# route-family
if ((route_family == RF_IPv4_VPN and not is_valid_ipv4(next_hop)) or
(route_family == RF_IPv6_VPN and not is_valid_ipv6(next_hop))):
raise ValueError('Next hop should belong to %s route family' %
route_family)
if not nlri_list:
nlri_list = []
RcgPathAttr.__init__(self)
self._route_family = route_family
self._next_hop = next_hop
self._nlri_list = nlri_list
self._reserved = reserved
def __init__(self, version, asnum, holdtime, bgpid, caps,
unrec_params=None):
# Validate arguments.
if version < 1:
raise ValueError('Invalid version number %s' % version)
if not is_valid_old_asn(asnum):
raise ValueError('Invalid AS number %s' % asnum)
if holdtime <= 2:
raise ValueError('Holdtime has to be greater than 2 sec.')
if not caps:
raise ValueError('Invalid capabilities.')
if not is_valid_ipv4(bgpid):
raise ValueError('Invalid bgp ID, should be valid IPv4, '
'but given %s' % bgpid)
BgpMessage.__init__(self)
self._version = version
self._holdtime = holdtime
self._asnum = asnum
self._bgpid = bgpid
self._caps = caps
self._unrec_params = unrec_params
if not unrec_params:
self._unrec_params = OrderedDict()
def __init__(self, route_family, next_hop, nlri_list, reserved=None):
if not (hasattr(route_family, 'afi')
and hasattr(route_family, 'safi')):
raise ValueError('Invalid parameter value for route_family %s.' %
route_family)
if not next_hop:
raise ValueError('Invalid next_hop %s' % next_hop)
# MpReachNlri attribute should have next-hop belonging to same
# route-family
if ((route_family == RF_IPv4_VPN and not is_valid_ipv4(next_hop)) or
(route_family == RF_IPv6_VPN and not is_valid_ipv6(next_hop))):
raise ValueError('Next hop should belong to %s route family' %
route_family)
if not nlri_list:
nlri_list = []
RcgPathAttr.__init__(self)
self._route_family = route_family
self._next_hop = next_hop
self._nlri_list = nlri_list
self._reserved = reserved
def is_valid_gw_ip_addr(addr):
if not (validation.is_valid_ipv4(addr) or validation.is_valid_ipv6(addr)):
raise ConfigValueError(conf_name=GW_IP_ADDR, conf_value=addr)
def is_valid_ip_addr(addr):
# Note: Allows empty IP Address (means length=0).
# e.g.) L2VPN MAC advertisement of Cisco NX-OS
if not (addr is None or validation.is_valid_ipv4(addr)
or validation.is_valid_ipv6(addr)):
raise ConfigValueError(conf_name=IP_ADDR, conf_value=addr)
def is_valid_next_hop(next_hop):
if not (validation.is_valid_ipv4(next_hop)
or validation.is_valid_ipv6(next_hop)):
raise ConfigValueError(conf_name=NEXT_HOP, conf_value=next_hop)
def is_valid_next_hop(next_hop_addr):
return validation.is_valid_ipv4(next_hop_addr)
def test_is_valid_ipv4(self):
ok_(validation.is_valid_ipv4('10.0.0.1'))
def __init__(self, ip_address):
if not is_valid_ipv4(ip_address):
raise ValueError('Invalid ipv4 address %s.' % ip_address)
RcgPathAttr.__init__(self)
self._ip_address = ip_address
def validate_rpc_ip(cls, ip):
"""Validates given ip for use as rpc host bind address.
"""
if not is_valid_ipv4(ip):
raise ApplicationException(desc='Invalid rpc ip address.')
return ip
def _validate_rpc_ip(rpc_server_ip):
"""Validates given ip for use as rpc host bind address.
"""
if not is_valid_ipv4(rpc_server_ip):
raise NetworkControllerError(desc='Invalid rpc ip address.')
return rpc_server_ip
def _validate_rpc_ip(rpc_server_ip):
"""Validates given ip for use as rpc host bind address.
"""
if not is_valid_ipv4(rpc_server_ip):
raise NetworkControllerError(desc='Invalid rpc ip address.')
return rpc_server_ip
def __init__(self, ip_address):
if not is_valid_ipv4(ip_address):
raise ValueError('Invalid ipv4 address %s.' % ip_address)
RcgPathAttr.__init__(self)
self._ip_address = ip_address
def update_vrf_table(self,
route_dist,
prefix=None,
next_hop=None,
route_family=None,
route_type=None,
tunnel_type=None,
is_withdraw=False,
**kwargs):
"""Update a BGP route in the VRF table identified by `route_dist`
with the given `next_hop`.
If `is_withdraw` is False, which is the default, add a BGP route
to the VRF table identified by `route_dist` with the given
`next_hop`.
If `is_withdraw` is True, remove a BGP route from the VRF table
and the given `next_hop` is ignored.
If `route_family` is VRF_RF_L2_EVPN, `route_type` and `kwargs`
are required to construct EVPN NLRI and `prefix` is ignored.
Returns assigned VPN label.
"""
from ryu.services.protocols.bgp.core import BgpCoreError
assert route_dist
if is_withdraw:
gen_lbl = False
next_hop = None
else:
gen_lbl = True
if not (is_valid_ipv4(next_hop) or is_valid_ipv6(next_hop)):
raise BgpCoreError(desc='Invalid IPv4/IPv6 nexthop: %s' %
next_hop)
vrf_table = self._tables.get((route_dist, route_family))
if vrf_table is None:
raise BgpCoreError(
desc='VRF table does not exist: route_dist=%s, '
'route_family=%s' % (route_dist, route_family))
if route_family == VRF_RF_IPV4:
if not is_valid_ipv4_prefix(prefix):
raise BgpCoreError(desc='Invalid IPv4 prefix: %s' % prefix)
ip, masklen = prefix.split('/')
prefix = IPAddrPrefix(int(masklen), ip)
elif route_family == VRF_RF_IPV6:
if not is_valid_ipv6_prefix(prefix):
raise BgpCoreError(desc='Invalid IPv6 prefix: %s' % prefix)
ip6, masklen = prefix.split('/')
prefix = IP6AddrPrefix(int(masklen), ip6)
elif route_family == VRF_RF_L2_EVPN:
assert route_type
if route_type == EvpnMacIPAdvertisementNLRI.ROUTE_TYPE_NAME:
# MPLS labels will be assigned automatically
kwargs['mpls_labels'] = []
subclass = EvpnNLRI._lookup_type_name(route_type)
kwargs['route_dist'] = route_dist
esi = kwargs.get('esi', None)
if esi is not None:
# Note: Currently, we support arbitrary 9-octet ESI value only.
kwargs['esi'] = EvpnArbitraryEsi(type_desc.Int9.from_user(esi))
if 'vni' in kwargs:
# Disable to generate MPLS labels, because encapsulation type
# is not MPLS.
from ryu.services.protocols.bgp.api.prefix import (
TUNNEL_TYPE_VXLAN, TUNNEL_TYPE_NVGRE)
assert tunnel_type in [TUNNEL_TYPE_VXLAN, TUNNEL_TYPE_NVGRE]
gen_lbl = False
prefix = subclass(**kwargs)
else:
raise BgpCoreError(desc='Unsupported route family %s' %
route_family)
# We do not check if we have a path to given prefix, we issue
# withdrawal. Hence multiple withdrawals have not side effect.
return vrf_table.insert_vrf_path(nlri=prefix,
next_hop=next_hop,
gen_lbl=gen_lbl,
is_withdraw=is_withdraw,
tunnel_type=tunnel_type)
def test_is_valid_ipv4(self):
ok_(validation.is_valid_ipv4("10.0.0.1"))
def validate_local_address(ip_address):
if not is_valid_ipv4(ip_address):
raise ConfigValueError(desc='Invalid local ip_address: %s' %
ip_address)
return ip_address
def test_is_valid_ipv4_not_dot(self):
eq_(False, validation.is_valid_ipv4("192:168:0:1"))
def update_vrf_table(self,
route_dist,
prefix=None,
next_hop=None,
route_family=None,
route_type=None,
tunnel_type=None,
is_withdraw=False,
redundancy_mode=None,
pmsi_tunnel_type=None,
**kwargs):
"""Update a BGP route in the VRF table identified by `route_dist`
with the given `next_hop`.
If `is_withdraw` is False, which is the default, add a BGP route
to the VRF table identified by `route_dist` with the given
`next_hop`.
If `is_withdraw` is True, remove a BGP route from the VRF table
and the given `next_hop` is ignored.
If `route_family` is VRF_RF_L2_EVPN, `route_type` and `kwargs`
are required to construct EVPN NLRI and `prefix` is ignored.
``redundancy_mode`` specifies a redundancy mode type.
` `pmsi_tunnel_type` specifies the type of the PMSI tunnel attribute
used to encode the multicast tunnel identifier.
This field is advertised only if route_type is
EVPN_MULTICAST_ETAG_ROUTE.
Returns assigned VPN label.
"""
from ryu.services.protocols.bgp.core import BgpCoreError
assert route_dist
if is_withdraw:
gen_lbl = False
next_hop = None
else:
gen_lbl = True
if not (is_valid_ipv4(next_hop) or is_valid_ipv6(next_hop)):
raise BgpCoreError(desc='Invalid IPv4/IPv6 nexthop: %s' %
next_hop)
vrf_table = self._tables.get((route_dist, route_family))
if vrf_table is None:
raise BgpCoreError(
desc='VRF table does not exist: route_dist=%s, '
'route_family=%s' % (route_dist, route_family))
vni = kwargs.get('vni', None)
if route_family == VRF_RF_IPV4:
if not is_valid_ipv4_prefix(prefix):
raise BgpCoreError(desc='Invalid IPv4 prefix: %s' % prefix)
ip, masklen = prefix.split('/')
prefix = IPAddrPrefix(int(masklen), ip)
elif route_family == VRF_RF_IPV6:
if not is_valid_ipv6_prefix(prefix):
raise BgpCoreError(desc='Invalid IPv6 prefix: %s' % prefix)
ip6, masklen = prefix.split('/')
prefix = IP6AddrPrefix(int(masklen), ip6)
elif route_family == VRF_RF_L2_EVPN:
assert route_type
if route_type == EvpnMacIPAdvertisementNLRI.ROUTE_TYPE_NAME:
# MPLS labels will be assigned automatically
kwargs['mpls_labels'] = []
if route_type == EvpnInclusiveMulticastEthernetTagNLRI.ROUTE_TYPE_NAME:
# Inclusive Multicast Ethernet Tag Route does not have "vni",
# omit "vni" from "kwargs" here.
vni = kwargs.pop('vni', None)
subclass = EvpnNLRI._lookup_type_name(route_type)
kwargs['route_dist'] = route_dist
esi = kwargs.get('esi', None)
if esi is not None:
if isinstance(esi, dict):
esi_type = esi.get('type', 0)
esi_class = EvpnEsi._lookup_type(esi_type)
kwargs['esi'] = esi_class.from_jsondict(esi)
else: # isinstance(esi, numbers.Integral)
kwargs['esi'] = EvpnArbitraryEsi(
type_desc.Int9.from_user(esi))
if vni is not None:
# Disable to generate MPLS labels,
# because encapsulation type is not MPLS.
from ryu.services.protocols.bgp.api.prefix import (
TUNNEL_TYPE_VXLAN, TUNNEL_TYPE_NVGRE)
assert tunnel_type in [
None, TUNNEL_TYPE_VXLAN, TUNNEL_TYPE_NVGRE
]
gen_lbl = False
prefix = subclass(**kwargs)
else:
raise BgpCoreError(desc='Unsupported route family %s' %
route_family)
# We do not check if we have a path to given prefix, we issue
# withdrawal. Hence multiple withdrawals have not side effect.
return vrf_table.insert_vrf_path(nlri=prefix,
next_hop=next_hop,
gen_lbl=gen_lbl,
is_withdraw=is_withdraw,
redundancy_mode=redundancy_mode,
vni=vni,
tunnel_type=tunnel_type,
pmsi_tunnel_type=pmsi_tunnel_type)
def validate_local_address(ip_address):
if not is_valid_ipv4(ip_address):
raise ConfigValueError(desc='Invalid local ip_address: %s' %
ip_address)
return ip_address
def is_valid_next_hop(next_hop):
if not (validation.is_valid_ipv4(next_hop)
or validation.is_valid_ipv6(next_hop)):
raise ConfigValueError(conf_name=NEXT_HOP,
conf_value=next_hop)
def is_valid_next_hop(next_hop_addr):
return validation.is_valid_ipv4(next_hop_addr)
def is_valid_gw_ip_addr(addr):
if not (validation.is_valid_ipv4(addr)
or validation.is_valid_ipv6(addr)):
raise ConfigValueError(conf_name=GW_IP_ADDR,
conf_value=addr)
def update_vrf_table(self, route_dist, prefix=None, next_hop=None,
route_family=None, route_type=None, tunnel_type=None,
is_withdraw=False, **kwargs):
"""Update a BGP route in the VRF table identified by `route_dist`
with the given `next_hop`.
If `is_withdraw` is False, which is the default, add a BGP route
to the VRF table identified by `route_dist` with the given
`next_hop`.
If `is_withdraw` is True, remove a BGP route from the VRF table
and the given `next_hop` is ignored.
If `route_family` is VRF_RF_L2_EVPN, `route_type` and `kwargs`
are required to construct EVPN NLRI and `prefix` is ignored.
Returns assigned VPN label.
"""
from ryu.services.protocols.bgp.core import BgpCoreError
assert route_dist
if is_withdraw:
gen_lbl = False
next_hop = None
else:
gen_lbl = True
if not (is_valid_ipv4(next_hop) or is_valid_ipv6(next_hop)):
raise BgpCoreError(
desc='Invalid IPv4/IPv6 nexthop: %s' % next_hop)
vrf_table = self._tables.get((route_dist, route_family))
if vrf_table is None:
raise BgpCoreError(
desc='VRF table does not exist: route_dist=%s, '
'route_family=%s' % (route_dist, route_family))
if route_family == VRF_RF_IPV4:
if not is_valid_ipv4_prefix(prefix):
raise BgpCoreError(desc='Invalid IPv4 prefix: %s' % prefix)
ip, masklen = prefix.split('/')
prefix = IPAddrPrefix(int(masklen), ip)
elif route_family == VRF_RF_IPV6:
if not is_valid_ipv6_prefix(prefix):
raise BgpCoreError(desc='Invalid IPv6 prefix: %s' % prefix)
ip6, masklen = prefix.split('/')
prefix = IP6AddrPrefix(int(masklen), ip6)
elif route_family == VRF_RF_L2_EVPN:
assert route_type
if route_type == EvpnMacIPAdvertisementNLRI.ROUTE_TYPE_NAME:
# MPLS labels will be assigned automatically
kwargs['mpls_labels'] = []
subclass = EvpnNLRI._lookup_type_name(route_type)
kwargs['route_dist'] = route_dist
esi = kwargs.get('esi', None)
if esi is not None:
# Note: Currently, we support arbitrary 9-octet ESI value only.
kwargs['esi'] = EvpnArbitraryEsi(type_desc.Int9.from_user(esi))
if 'vni' in kwargs:
# Disable to generate MPLS labels, because encapsulation type
# is not MPLS.
from ryu.services.protocols.bgp.api.prefix import (
TUNNEL_TYPE_VXLAN, TUNNEL_TYPE_NVGRE)
assert tunnel_type in [TUNNEL_TYPE_VXLAN, TUNNEL_TYPE_NVGRE]
gen_lbl = False
prefix = subclass(**kwargs)
else:
raise BgpCoreError(
desc='Unsupported route family %s' % route_family)
# We do not check if we have a path to given prefix, we issue
# withdrawal. Hence multiple withdrawals have not side effect.
return vrf_table.insert_vrf_path(
nlri=prefix, next_hop=next_hop, gen_lbl=gen_lbl,
is_withdraw=is_withdraw, tunnel_type=tunnel_type)
def test_is_valid_ipv4_not_dot(self):
eq_(False, validation.is_valid_ipv4('192:168:0:1'))
def update_vrf_table(self, route_dist, prefix=None, next_hop=None,
route_family=None, route_type=None, tunnel_type=None,
is_withdraw=False, redundancy_mode=None,
pmsi_tunnel_type=None, **kwargs):
"""Update a BGP route in the VRF table identified by `route_dist`
with the given `next_hop`.
If `is_withdraw` is False, which is the default, add a BGP route
to the VRF table identified by `route_dist` with the given
`next_hop`.
If `is_withdraw` is True, remove a BGP route from the VRF table
and the given `next_hop` is ignored.
If `route_family` is VRF_RF_L2_EVPN, `route_type` and `kwargs`
are required to construct EVPN NLRI and `prefix` is ignored.
``redundancy_mode`` specifies a redundancy mode type.
` `pmsi_tunnel_type` specifies the type of the PMSI tunnel attribute
used to encode the multicast tunnel identifier.
This field is advertised only if route_type is
EVPN_MULTICAST_ETAG_ROUTE.
Returns assigned VPN label.
"""
from ryu.services.protocols.bgp.core import BgpCoreError
assert route_dist
if is_withdraw:
gen_lbl = False
next_hop = None
else:
gen_lbl = True
if not (is_valid_ipv4(next_hop) or is_valid_ipv6(next_hop)):
raise BgpCoreError(
desc='Invalid IPv4/IPv6 nexthop: %s' % next_hop)
vrf_table = self._tables.get((route_dist, route_family))
if vrf_table is None:
raise BgpCoreError(
desc='VRF table does not exist: route_dist=%s, '
'route_family=%s' % (route_dist, route_family))
vni = kwargs.get('vni', None)
if route_family == VRF_RF_IPV4:
if not is_valid_ipv4_prefix(prefix):
raise BgpCoreError(desc='Invalid IPv4 prefix: %s' % prefix)
ip, masklen = prefix.split('/')
prefix = IPAddrPrefix(int(masklen), ip)
elif route_family == VRF_RF_IPV6:
if not is_valid_ipv6_prefix(prefix):
raise BgpCoreError(desc='Invalid IPv6 prefix: %s' % prefix)
ip6, masklen = prefix.split('/')
prefix = IP6AddrPrefix(int(masklen), ip6)
elif route_family == VRF_RF_L2_EVPN:
assert route_type
if route_type == EvpnMacIPAdvertisementNLRI.ROUTE_TYPE_NAME:
# MPLS labels will be assigned automatically
kwargs['mpls_labels'] = []
subclass = EvpnNLRI._lookup_type_name(route_type)
kwargs['route_dist'] = route_dist
esi = kwargs.get('esi', None)
if esi is not None:
if isinstance(esi, dict):
esi_type = esi.get('type', 0)
esi_class = EvpnEsi._lookup_type(esi_type)
kwargs['esi'] = esi_class.from_jsondict(esi)
else: # isinstance(esi, numbers.Integral)
kwargs['esi'] = EvpnArbitraryEsi(
type_desc.Int9.from_user(esi))
if vni is not None:
# Disable to generate MPLS labels,
# because encapsulation type is not MPLS.
from ryu.services.protocols.bgp.api.prefix import (
TUNNEL_TYPE_VXLAN, TUNNEL_TYPE_NVGRE)
assert tunnel_type in [
None, TUNNEL_TYPE_VXLAN, TUNNEL_TYPE_NVGRE]
gen_lbl = False
prefix = subclass(**kwargs)
else:
raise BgpCoreError(
desc='Unsupported route family %s' % route_family)
# We do not check if we have a path to given prefix, we issue
# withdrawal. Hence multiple withdrawals have not side effect.
return vrf_table.insert_vrf_path(
nlri=prefix, next_hop=next_hop, gen_lbl=gen_lbl,
is_withdraw=is_withdraw, redundancy_mode=redundancy_mode,
vni=vni, tunnel_type=tunnel_type,
pmsi_tunnel_type=pmsi_tunnel_type)
